0.3.3.6 * Fixed bug in the x / y method for Scientific. Since I was using the default implementation: `x * recip y` the operation would diverge when `recip y` had an infinite decimal output. This shouldn't happen when the result of / is finite again. For example: 0.6 / 0.3 should yield 2.0.

This is now fixed by using the following implementation:

`x / y = fromRational $ toRational x / toRational y`

0.3.3.5 * Fixed bug when converting the Scientific: `scientific 0 someBigExponent` to a bounded Integral using toBoundedInteger or to a bounded RealFloat using toBoundedRealFloat. If someBigExponent was big enough to trigger the big-exponent protection the beforementioned functions didn't return 0.

This is fixed by explicitly handling a coefficient of 0.

0.3.3.4 * Relax upper version bounds of base and deepseq for the test suite and benchmarks.

0.3.2.2 * Enable package to link with integer-simple instead of integer-gmp using the -finteger-simple cabal flag. Courtesy of @k0ral.

0.3.2.1

* Parameterize inclusion of the Data.ByteString.Builder.Scientific module using the bytestring-builder flag. Disabling this flag allows building on GHC-7.0.4 which has bytestring-0.9 installed by default.

0.3.2.0

* Add the floatingOrInteger function * Fix build on GHC-7.0.4 * More efficient and better behaving magnitude computation * Lower the number of cached magnitudes to 324 (same as GHC.Float)

* Fix a DoS vulnerability that allowed an attacker to crash the process by sending a scientific with a huge exponent like 1e1000000000. * Fix various RealFrac methods. * Cache some powers of 10 to speed up the magnitude computation. * Normalize scientific numbers on construction. * Move the Text Builder to its own module & provide a ByteString builder * Added more documentation